User guide
Table Of Contents
- 1 Safety Information
- 2 Product Information
- 3 Mechanical Installation
- 4 Electrical Installation
- 4.1 Electrical connections/ Power connections
- 4.2 Ground connections
- 4.3 AC supply requirements
- 4.4 Line reactors
- 4.5 Auxiliary AC supply and connections
- 4.6 Separating the Auxiliary Supply
- 4.7 Control 120 Vac supply
- 4.8 Control 24 Vdc supply
- 4.9 Cable and fuse size ratings
- 4.10 External suppressor resistor
- 4.11 Ground leakage
- 4.12 EMC (Electromagnetic compatibility)
- 4.13 Serial communications connections
- 4.14 Shield connections
- 4.15 Control connections
- 4.16 General
- 4.17 Connecting an encoder
- 5 Getting Started
- 5.1 Understanding the display
- 5.2 Keypad operation
- 5.3 Menu 0 (sub block)
- 5.4 Pre-defined sub blocks
- 5.5 Menu 0 (linear)
- 5.6 Menu structure
- 5.7 Advanced menus
- 5.8 Saving parameters
- 5.9 Restoring parameter defaults
- 5.10 Displaying parameters with non- default values only
- 5.11 Displaying destination parameters only
- 5.12 Parameter access level and security
- 5.13 Serial communications
- 6 Basic parameters
- 7 Running the Motor
- 8 Optimization
- 9 SMARTCARD Operation
- 9.1 Introduction
- 9.2 Easy saving and reading
- 9.3 Transferring data
- 9.3.1 Writing to the SMARTCARD
- 9.3.2 Reading from the SMARTCARD
- 9.3.3 Auto saving parameter changes
- 9.3.4 Booting up from the SMARTCARD on every power up (Pr 11.42 (SE09, 0.30) = boot (4))
- 9.3.5 Booting up from the SMARTCARD on every power up (Pr xx.00 = 2001)
- 9.3.6 Comparing drive full parameter set with the SMARTCARD values
- 9.3.7 7yyy / 9999 - Erasing data from the SMARTCARD
- 9.3.8 9666 / 9555 - Set / clear SMARTCARD warning suppression flag
- 9.3.9 9888 / 9777 - Set / clear the SMARTCARD read only flag
- 9.4 Data block header information
- 9.5 SMARTCARD parameters
- 9.6 SMARTCARD trips
- 10 Onboard PLC
- 11 Advanced Parameters
- 11.1 Menu 1: Speed reference
- 11.2 Menu 2: Ramps
- 11.3 Menu 3: Speed feedback and speed control
- 11.4 Menu 4: Torque and current control
- 11.5 Menu 5: Motor and field control
- 11.6 Menu 6: Sequencer and clock
- 11.7 Menu 7: Analog I/O
- 11.8 Menu 8: Digital I/O
- 11.9 Menu 9: Programmable logic, motorized pot and binary sum
- 11.10 Menu 10: Status and trips
- 11.11 Menu 11: General drive set-up
- 11.12 Menu 12: Threshold detectors, variable selectors and brake control function
- 11.13 Menu 13: Position control
- 11.14 Menu 14: User PID controller
- 11.15 Menus 15, 16 and 17: Solutions Module slots
- 11.16 SM-I/O120V Solutions Module parameter settings
- 11.17 Menu 18: Application menu 1
- 11.18 Menu 19: Application menu 2
- 11.19 Menu 20: Application menu 3
- 11.20 Menu 21: Second motor parameters
- 11.21 Menu 22: Additional Menu 0 set-up
- 11.22 Menu 23: Header selections
- 11.23 Advanced features
- 12 Technical Data
- 12.1 Drive technical data
- 12.1.1 Power and current ratings
- 12.1.2 Power dissipation
- 12.1.3 AC Supply requirements
- 12.1.4 Supply types
- 12.1.5 SCR bridge AC Supply
- 12.1.6 Auxiliary AC supply
- 12.1.7 Line reactors
- 12.1.8 Temperature, humidity and cooling method
- 12.1.9 Storage
- 12.1.10 Altitude
- 12.1.11 IP Rating
- 12.1.12 Corrosive gasses
- 12.1.13 RoHS compliance
- 12.1.14 Vibration
- 12.1.15 Start up time
- 12.1.16 Output speed range
- 12.1.17 Accuracy
- 12.1.18 Acoustic noise
- 12.1.19 Overall dimensions
- 12.1.20 Weights
- 12.2 Cable and fuse size ratings
- 12.3 Optional external EMC filters
- 12.1 Drive technical data
- 13 Diagnostics
- 14 UL Information
- List of tables
- Index
Safety
Information
Product
Information
Mechanical
Installation
Electrical
Installation
Getting
Started
Basic
parameters
Running
the Motor
Optimization
SMARTCARD
Operation
Onboard
PLC
Advanced
Parameters
Technical
Data
Diagnostics
UL
Information
160 Quantum MP User Guide
www.emersonct.com Issue: A3
HF11 Data processing error: Access to EEPROM failed
Hardware fault - return drive to supplier
HF12 Data processing error: Main program stack overflow
Hardware fault - return drive to supplier
HF17 Data processing error: No Comms from power processor
217 Hardware fault - return drive to supplier
HF18 Bucket suppressor capacitor failure
218 Hardware fault - return drive to supplier
HF19 Overheat on bucket suppressor or snubber circuits
219 Check internal fan operation
HF20 Power stage recognition: identification code error
220 Hardware fault - return drive to supplier
HF21 Power processor: Watchdog failure
221 Hardware fault - return drive to supplier
HF22 Power processor: Undefined exception
222 Hardware fault - return drive to supplier
HF23 Power processor: Level overrun
223 Hardware fault - return drive to supplier
HF27 Power circuit: Thermistor 1 fault
227 Hardware fault - return drive to supplier
HF28 Power software not compatible with user software
228 Hardware fault - return drive to supplier
HF29 User processor: Armature timing error
229 Hardware fault - return drive to supplier
It.AC
I
2
t on drive output current (Refer to Pr 4.16)
20
Ensure the load is not jammed / sticking
Check the load on the motor has not changed
O.ht1 Drive overheat (SCR junction) based on thermal model
21
Reduce ambient temperature
Reduce overload cycle
O.ht2 Heatsink over temperature
22
Check enclosure / drive fans are still functioning correctly
Check enclosure ventilation paths
Check enclosure door filters
Increase ventilation
Decrease acceleration / deceleration rates
Reduce duty cycle
Reduce motor load
O.ht3 External discharge resistor over temperature
27
The temperature of the external discharge resistor is monitored by the temperature accumulators. When the resistor temperature
(Pr
11.65) reaches 100% the drive will trip
See Pr 11.62, Pr 11.63 and Pr 11.64
O.Ld1 Digital output overload: total current drawn from 24V supply and digital outputs exceeds 200 mA
26 Check total load on digital outputs (terminals 24,25,26)and +24V rail (terminal 22)
O.SPd Motor speed has exceeded the over speed threshold
7
The drive will trip O.SPd if the armature is open circuit when the drive is in estimated speed mode. Check armature circuit.
If the speed feedback (Pr 3.02 (di05, 0.40)) exceeds the over speed threshold (Pr 3.08) in either direction an over speed trip is
produced.
If this parameter is set to zero, the over speed threshold is automatically set to 1.2 x Pr 1.06 (SE02, 0.23) or Pr 1.07 (SE01, 0.22).
Reduce the speed loop gain (Pr 3.10 (SP01, 0.61)) and speed integral (Pr 3.11 (SP02, 0.62)) to prevent speed overshoot.
Trip Diagnosis